A method is for determining a status of a track section of a railroad. Each end of the track section is connected to a respective detector. One of the two detectors transmits a current along the rails of the track section towards the other detector and receives a current transmitted along the rails of the track section from the other detector. The track section is further equipped with a computer in communication with the two detectors. The computer calculates an instant value of the status of the track section as a function of an instant vector based on a measure of an intensity of the current transmitted by a first of the detectors as measured by the first detector (Txl1), a measure of an intensity of the current received by the first detector as measured by the first detector (Rxl1) and a measure of an intensity of the current transmitted by the second detector as measured by the second detector (Txl2).

A method is for determining a status of a track section of a railroad. Each end of the track section is connected to a respective detector. One of the two detectors transmits a current along the rails of the track section towards the other detector and receives a current transmitted along the rails of the track section from the other detector. The track section is further equipped with a computer in communication with the two detectors. The computer calculates an instant value of the status of the track section as a function of an instant vector based on a measure of an intensity of the current transmitted by a first of the detectors as measured by the first detector (Txl1), a measure of an intensity of the current received by the first detector as measured by the first detector (Rxl1) and a measure of an intensity of the current transmitted by the second detector as measured by the second detector (Txl2).

This method is for managing a railway electrical circuit (3A, 3B) adapted to detect presence of a rolling stock (T) on a railway track (1), the railway track (1) being subdivided in successive track sections (1A, 1B) forming successive electrical circuits (3A, 3B) independently fed with electrical current for monitoring the presence of a rolling stock (T) on one of the track sections (1A, 1B), each electrical circuit (3A, 3B) comprising a transmission device (9A, 9B) for feeding the electrical circuit (3A, 3B) with electrical current, located at one end of the track section, and a reception device (11A, 11B) for detecting the electrical current circulating in the electrical circuit (3A, 3B), located at an opposed end of the track section. This method comprises steps consisting in a) continuously feeding the electrical circuit (3A, 3B) with electrical current with the transmission device (9A, 9B) and monitoring the presence of a rolling stock (T) on the corresponding track section (1A, 1B) by measuring, using the reception device (11A, 11B), the current circulating in the electrical circuit (3A, 3B); b) if the reception device (11A, 11B) detects that a rolling stock (T) is present on the track section (1A, 1B), applying to the electrical circuit (3A, 3B) a nominal electrical power (PN) at least until the rolling stock (T) exits the section (1A, 1B); c) if the reception device (11A, 11B) detects that no rolling stock (T) is present on the track section (1A, 1B), applying to the electrical circuit (3A, 3B) a power-saving power value (P0) which is inferior to the nominal power (PN). At step b), the electrical power (P.sub.OT) consumed by the electrical circuit (3A, 3B) is kept under a limited value (P2). A system for detecting presence of a rolling stock (T) on a railway track (1) is also provided.

A method is provided for detecting the presence of a rolling stock on a railway track that is subdivided in successive track sections forming successive electrical circuits independently fed with electrical current for monitoring the presence of a rolling stock on a track section. A transmission device for providing electrical current is located at one end of the track section, and a reception device for detecting the electrical current is located at an opposite end of the track section. This method includes steps for continuously feeding the electrical circuit with electrical current and monitoring the presence of a rolling stock on the corresponding track section so that an electrical current can be applied to the electrical circuit if the reception device detects that no rolling stock is present on the track section. A system for detecting presence of a rolling stock on a railway track is also provided.

An active fixed block track circuit comprises at least a fixed block section, comprising at least two rails corresponding to each other, each having an isolation connector at two ends thereof and connected to a power supply unit and a traffic signal; a short driving unit, connected to each of the two rails within the fixed block section; and a detection unit, connected to the short driving unit. In this manner, not only the previous rail traffic signal circuit function where no more than one train may be allowed into the same fixed block section is maintained, but also another train approaching from the rear may be prevented from entering the fixed block section when the detection unit at the fixed block section detects an exceptional case happening at a neighboring fixed block section so that the traffic signal unit is switched into a stop traffic signal.